| Nalaste |  | 
| Nalbase |  | 
| ►Natchem |  | 
| Ccs_f_atmo_get_chem_conc_file_name |  | 
| Ccs_f_atmo_get_aero_conc_file_name |  | 
| Ccs_f_atmo_chem_finalize | Deallocate arrays for atmo chemistry | 
| Ccs_f_atmo_chem_initialize_reacnum | Return pointer to reacnum | 
| ►Natimbr |  | 
| Ccs_f_atmo_get_pointers_imbrication |  | 
| ►Natincl |  | 
| Ccs_f_atmo_get_meteo_file_name |  | 
| Ccs_f_atmo_get_pointers | Return pointers to atmo includes | 
| Ccs_f_atmo_arrays_get_pointers | Return pointers to atmo arrays | 
| Ccs_atmo_init_meteo_profiles | Initialize meteo profiles if no meteo file is given | 
| Ccs_atmo_compute_meteo_profiles | Compute meteo profiles if no meteo file is given | 
| Ccs_liq_t_to_h | Calculation of the specific enthalpy of liquid water | 
| Ccs_air_x_sat | Calculation of the absolute humidity at saturation for a given temperature | 
| Ccs_air_yw_sat | Calculation of the air water mass fraction at saturation for a given temperature | 
| Ccs_air_pwv_sat | Computes the saturation water vapor pressure function of the temperature (C) | 
| Ccs_air_x_to_yw | Convert the absolute humidity of humid air to the air water mass fraction | 
| Ccs_air_yw_to_x | Convert the air water mass fraction to the absolute humidity of humid air | 
| Ccs_rho_humidair | Calculation of the density of humid air | 
| Ccs_mo_phim |  | 
| Ccs_mo_phih |  | 
| Ccs_mo_psim |  | 
| Ccs_mo_psih |  | 
| Ccs_f_atmo_get_soil_zone |  | 
| Ccs_f_boundary_conditions_get_atincl_pointers |  | 
| ►Natsoil |  | 
| Ccategorie_sol | Kind of soil (water, forest, urban ...) and associated constantes | 
| Csoil_tab | Defines the soil constants and variables of the vertical arrays used for the 1D radiative model | 
| Ncavitation |  | 
| ►Ncdomod |  | 
| Ccs_f_cdo_solve_unsteady_state_domain |  | 
| Ccs_f_cdo_solve_steady_state_domain |  | 
| Ccs_f_domain_initialize_cdo_systems |  | 
| Ccs_f_cdo_post_domain |  | 
| Ccs_equation_solve_steady_state_wrapper |  | 
| Csolve_cdo_equation |  | 
| Ccs_f_cdo_get_pointers |  | 
| Ncfpoin |  | 
| Ncoincl |  | 
| Ncpincl |  | 
| ►Ncs_c_bindings |  | 
| Cvar_cal_opt |  | 
| Csolving_info |  | 
| Cgas_mix_species_prop |  | 
| Cboundary_conditions_mapped_set | Set mapped boundary conditions for a given field and mapping locator | 
| Ccs_f_field_set_key_struct_var_cal_opt |  | 
| Ccs_f_field_get_key_struct_var_cal_opt |  | 
| Cequation_param_from_vcopt |  | 
| Ccs_fan_n_fans | Return the number of fans | 
| Ccs_gas_combustion_h_to_t | Convert enthalpy to temperature for gas combustion | 
| Ccs_gas_combustion_t_to_h | Convert temperature to enthalpy for gas combustion | 
| Ccs_boundary_conditions_legacy_turbulence | Define automatic turbulence values for specific physical modules | 
| Ccs_log_default_activate |  | 
| Ccs_log_default_is_active |  | 
| Clog_iteration |  | 
| Ccs_log_iteration_prepare |  | 
| Clog_l2residual |  | 
| Ccs_turb_model_init |  | 
| Ccs_set_type_order_turbulence_model |  | 
| Ccs_f_scalar_clipping |  | 
| Ccs_intprf |  | 
| Ccs_intprz |  | 
| Cles_filter | Compute filters for dynamic models | 
| Cles_balance_create | Create the LES balance structure | 
| Cles_balance_finalize | Destroy the LES balance structure | 
| Cles_balance_write_restart | Write the LES balance restart file | 
| Cles_balance_update_gradients | Compute additional time averages for LES balance | 
| Cles_balance_compute | Compute the LES balance | 
| Ccs_map_name_to_id_destroy | Destroy name to id map structure | 
| Cparameters_read_restart_info | Read restart metadata | 
| Crestart_destroy | Destroy structure associated with a restart file (and close the file) | 
| Crestart_check_base_location | Check the locations associated with a restart file | 
| Crestart_read_field_info | Read field metadata from checkpoint | 
| Crestart_write_field_info | Write field metadata to checkpoint | 
| Crestart_read_bc_coeffs | Read boundary condition coefficients for all fields from checkpoint | 
| Crestart_write_bc_coeffs | Write boundary condition coefficients for all fields to checkpoint | 
| Crestart_write_fields | Loop over all fields and save them in the restart file which id is passed in argument if it matches their "restart_file" key value | 
| Crestart_read_fields | Loop over all fields and read them in the restart file which id is passed in argument if it matches their "restart_file" key value | 
| Crestart_clean_multiwriters_history | Remove all previous dumps of checkpoint files which are not to be saved | 
| Crestart_main_and_aux_write |  | 
| Crestart_main_and_aux_read |  | 
| Ccs_syr_coupling_n_couplings |  | 
| Ccsccel |  | 
| Ccs_sat_coupling_array_exchange |  | 
| Ccs_time_moment_n_moments | Return the number of temporal moments | 
| Ccs_time_moment_is_active | Return if moment is active (1) or not (0) | 
| Ctime_moment_update_all | Update temporal moments | 
| Ctime_moment_log_iteration | Log temporal moments initialization | 
| Ctime_moment_field_id | Get field id associated with a given moment | 
| Ctime_moment_restart_read | Read temporal moments checkpoint information | 
| Ctime_moment_restart_write | Checkpoint temporal moments | 
| Ctimer_stats_increment_time_step | Increment time step for timer statistics | 
| Ctimer_stats_set_plot | Enable or disable plotting for a timer statistic | 
| Ctimer_stats_start | Start a timer for a given statistic | 
| Ctimer_stats_stop | Stop a timer for a given statistic | 
| Ctimer_stats_switch | Start a timer for a given statistic, stopping previous timers of the same type which are not a parent, and starting inactive parent timers if necessary | 
| Cturbulence_bc_ke_hyd_diam | Calculation of  ,  and  from a diameter  and the reference velocity  for a circular duct flow with smooth wall (use for inlet boundary conditions) | 
| Cturbulence_bc_ke_turb_intensity | Calculation of  and  from a diameter  , a turbulent intensity  and the reference velocity  for a circular duct flow with smooth wall (for inlet boundary conditions) | 
| Cturbulence_bc_rij_transform | Compute matrix  used in the computation of the Reynolds stress tensor boundary conditions | 
| Cturbulence_bc_inlet_hyd_diam | Set inlet boundary condition values for turbulence variables based on a diameter  and the reference velocity  for a circular duct flow with smooth wall | 
| Cturbulence_bc_inlet_turb_intensity | Set inlet boundary condition values for turbulence variables based on a diameter  , a turbulent intensity  and the reference velocity  for a circular duct flow with smooth wall | 
| Cturbulence_bc_inlet_k_eps | Set inlet boundary condition values for turbulence variables based on given k and epsilon values | 
| Cturbulence_bc_set_uninit_inlet_k_eps | Set inlet boundary condition values for turbulence variables based on given k and epsilon values only if not initialized already | 
| Ccs_immersed_boundary_wall_functions | Compute boundary contributions for all immersed boundaries | 
| Cyg2xye | Compute molar and mass fractions of elementary species Ye, Xe (fuel, O2, CO2, H2O, N2) from global species Yg (fuel, oxidant, products) | 
| Cuser_parameters | General user parameters | 
| Cuser_porosity | General user parameters | 
| ►Ncs_cf_bindings |  | 
| Ccs_cf_thermo |  | 
| Ccs_cf_set_thermo_options |  | 
| Ccs_cf_thermo_default_init |  | 
| Ccs_cf_check_pressure |  | 
| Ccs_cf_check_internal_energy |  | 
| Ccs_cf_check_density |  | 
| Ccs_cf_check_temperature |  | 
| Ccs_cf_thermo_te_from_dp |  | 
| Ccs_cf_thermo_de_from_pt |  | 
| Ccs_cf_thermo_dt_from_pe |  | 
| Ccs_cf_thermo_pe_from_dt |  | 
| Ccs_cf_thermo_pt_from_de |  | 
| Ccs_cf_thermo_c_square |  | 
| Ccs_cf_thermo_beta |  | 
| Ccs_cf_thermo_cv |  | 
| Ccs_cf_thermo_s_from_dp |  | 
| Ccs_cf_thermo_wall_bc |  | 
| Ccs_cf_thermo_subsonic_outlet_bc |  | 
| Ccs_cf_thermo_ph_inlet_bc |  | 
| Ccs_cf_thermo_eps_sup |  | 
| Ccs_cf_hgn_source_terms_step |  | 
| Ncs_coal_incl |  | 
| ►Ncs_f_interfaces |  | 
| Cdiften |  | 
| Citrmav |  | 
| Cpost_stress |  | 
| Cvitens |  | 
| Cvistnv |  | 
| ►Ncs_nz_condensation |  | 
| Ccs_f_wall_condensation_create | Create wall condensation structure | 
| Ccs_f_wall_condensation_get_size_pointers | Return pointers to spcond | 
| Ccs_f_wall_condensation_get_pointers | Return pointers to spcond | 
| ►Ncs_nz_tagmr |  | 
| Ccs_f_wall_condensation_1d_thermal_get_pointers |  | 
| Ccs_f_wall_condensation_1d_thermal_get_mesh_pointers |  | 
| Ccs_f_wall_condensation_1d_thermal_create |  | 
| Ccs_f_wall_condensation_0d_thermal_create |  | 
| Ccs_f_wall_condensation_1d_thermal_mesh_create |  | 
| Ccs_f_wall_condensation_0d_thermal_get_pointers |  | 
| Ccs_f_wall_condensation_0d_thermal_solve |  | 
| Ncstnum |  | 
| Ncstphy |  | 
| Nctincl |  | 
| Ndimens |  | 
| Nentsor |  | 
| ►Nfield |  | 
| Cfield_allocate_or_map_all | Allocate arrays for all defined fields based on their location | 
| Cfield_set_key_int | Assign a floating point value for a given key to a field | 
| Cfield_set_key_int_bits | Set integer bits matching a mask to 1 for a given key for a field | 
| Cfield_clear_key_int_bits | Set integer bits matching a mask to 0 for a given key for a field | 
| Cfield_set_key_double | Assign a floating point value for a given key to a field | 
| ►Nfield_operator |  | 
| Cfield_gradient_scalar | Compute cell gradient of scalar field or component of vector or tensor field | 
| Cfield_gradient_vector | Compute cell gradient of vector field | 
| Cfield_gradient_tensor | Compute cell gradient of tensor field | 
| Cfield_set_volume_average | Shift field values in order to set its spatial average to a given value | 
| ►Nlagran |  | 
| Ccs_f_lagr_dim_pointers |  | 
| Ccs_f_lagr_params_pointers |  | 
| Ccs_f_lagr_source_terms_pointers |  | 
| Ccs_lagr_map_specific_physics |  | 
| Ccs_lagr_options_definition | Execute one time step of the Lagrangian model | 
| Ccs_lagr_precipitation_mass_st | Mass source term due to precipitation | 
| Ccs_lagr_solve_initialize | Prepare for execution of the Lagrangian model | 
| Ccs_lagr_solve_time_step | Execute one time step of the Lagrangian model | 
| Ccs_lagr_init_arrays | Allocate source term arrays | 
| Ccs_lagr_init_par |  | 
| Clagr_restart_write_particle_data | Write particle data to checkpoint | 
| Nmesh |  | 
| Nnumvar |  | 
| Noptcal |  | 
| ►Nparall |  | 
| Cparcmx | Compute the global maximum of an integer in case of parellism | 
| Cparmax | Compute the global maximum of a real number in case of parellism | 
| Cparcmn | Compute the global minimum of an integer in case of parellism | 
| Cparmin | Compute the global minimum of a real number in case of parellism | 
| Cparcpt | Compute the global sum of an integer in case of parellism | 
| Cparsom | Compute the global sum of a real number in case of parellism | 
| Cparimx | Compute the global maxima of an array of integers in case of parellism | 
| Cparrmx | Compute the global maxima of an array of real numbers in case of parellism | 
| Cparimn | Compute the global minima of an array of integers in case of parellism | 
| Cparrmn | Compute the global minima of an array of real numbers in case of parellism | 
| Cparism | Compute the global sums of an array of integers in case of parellism | 
| Cparrsm | Compute the global sums of an array of real numbers in case of parellism | 
| Cparall_bcast_i | Broadcast an integer in case of parellism | 
| Cparall_bcast_r | Broadcast a real number in case of parellism | 
| Cparbci | Broadcast an array of integers in case of parellism | 
| Cparbcr | Broadcast an array of real numbers in case of parellism | 
| Cparmxl | Maximum value of a real and the value of related array on all default communicator processes | 
| Cparmnl | Minimum value of a real and the value of related array on all default communicator processes | 
| Cparfpt | Given an (id, rank, value) tuple, return the local id, rank, and value corresponding to the global minimum value | 
| Ccs_parall_allgather_r | Build a global array from each local array in each domain | 
| Cparbar | Set a barrier on all default communicator processes | 
| Nparamx |  | 
| Nperiod |  | 
| ►Npointe |  | 
| Cpmapper_double_r1 | Container for rank 1 double precision array pointer | 
| Cpmapper_double_r2 | Container for rank 2 double precision array pointer | 
| Npost |  | 
| Nppcpfu |  | 
| Nppincl |  | 
| Nppppar |  | 
| Nppthch |  | 
| ►Nradiat |  | 
| Ccs_rad_transfer_finalize |  | 
| Ccs_rad_transfer_get_pointers |  | 
| Ccs_rad_transfer_read |  | 
| Ccs_rad_transfer_write |  | 
| Ccs_rad_transfer_options |  | 
| Ccs_rad_transfer_solve |  | 
| Ccs_rad_transfer_source_terms |  | 
| Ccs_rad_time_is_active |  | 
| ►Nrotation |  | 
| Crotation_define | Define a global rotation | 
| Crotation_update_coords | Update coordinates based on a global rotation and time | 
| Cangular_velocity | Return angular velocity associated with a rotation | 
| Crotation_velocity | Compute rotation velocity at given point coordinates | 
| Cadd_coriolis_v | Add a Coriolis term to a local vector | 
| Ccoriolis_v | Compute a Coriolis term for a vector | 
| Cadd_coriolis_t | Add the dual tensor of a rotation vector to a tensor | 
| Ccoriolis_t | Compute the dual tensor of a rotation vector | 
| Crotation_to_array | Copy rotation structure values to an array | 
| Nsshaerosol |  | 
| ►Nturbomachinery |  | 
| Cmap_turbomachinery_model |  | 
| Cmap_turbomachinery_rotor |  | 
| Cmap_turbomachinery_arrays |  | 
| Nvof |  |